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Transcript
Chapter 13
The Peripheral Nervous System and Reflex Activity
Structure of a Nerve
•
Connective tissue coverings include
– Endoneurium—loose connective tissue that encloses axons and their
myelin sheaths
– Perineurium—coarse connective tissue that bundles fibers into fascicles
– Epineurium—tough fibrous sheath around a nerve
Classification of Nerves
•
Most nerves are mixtures of afferent and efferent fibers and somatic and
autonomic (visceral) fibers
•
Classified according to direction transmit impulses
– Mixed nerves – both sensory and motor fibers; impulses both to and from
CNS
– Sensory (afferent) nerves – impulses only toward CNS
– Motor (efferent) nerves – impulses only away from CNS
•
•
Pure sensory (afferent) or motor (efferent) nerves are rare; most mixed
Types of fibers in mixed nerves:
– Somatic afferent
– Somatic efferent
– Visceral afferent
– Visceral efferent
•
Peripheral nerves classified as cranial or spinal nerves
Ganglia
•
Contain neuron cell bodies associated with nerves in PNS
– Ganglia associated with afferent nerve fibers contain cell bodies of sensory
neurons
• Dorsal root ganglia (sensory, somatic) (Chapter 12)
– Ganglia associated with efferent nerve fibers contain autonomic motor
neurons
• Autonomic ganglia (motor, visceral) (Chapter 14)
Regeneration of Nerve Fibers
• Mature neurons are amitotic but if soma of damaged nerve is intact, peripheral
axon may regenerate
• If peripheral axon damaged
–
–
–
–
Axon fragments (Wallerian degeneration); spreads distally from injury
Macrophages clean dead axon; myelin sheath intact
Axon filaments grow through regeneration tube
Axon regenerates; new myelin sheath forms
• Greater distance between severed ends-less chance of regeneration
• Most CNS fibers never regenerate
• CNS oligodendrocytes bear growth-inhibiting proteins that prevent CNS fiber
regeneration
• Astrocytes at injury site form scar tissue containing chondroitin sulfate that
blocks axonal regrowth
• Treatment
– Neutralizing growth inhibitors, blocking receptors for inhibitory proteins,
destroying chondroitin sulfate promising
Cranial Nerves
• Twelve pairs of nerves associated with brain
– Two attach to forebrain; rest with brain stem
• Most mixed nerves; two pairs purely sensory
• Each numbered (I through XII) and named from rostral to caudal
"On occasion, our trusty truck acts funny—very good vehicle anyhow"
"Oh once one takes the anatomy final, very good vacations are heavenly"
I: The Olfactory Nerves
•
•
Sensory nerves of smell
Purely sensory (olfactory) function
II: The Optic Nerves
•
Purely sensory (visual) function
III: The Oculomotor Nerves
•
Fibers extend from ventral midbrain through superior orbital fissures to four of
six extrinsic eye muscles
•
Function in raising eyelid, directing eyeball, constricting iris (parasympathetic),
and controlling lens shape
IV: The Trochlear Nerves
•
Fibers from dorsal midbrain enter orbits via superior orbital fissures to
innervate superior oblique muscle
•
Primarily motor nerve that directs eyeball; innervate superior oblique muscle
V: The Trigeminal Nerves
• Largest cranial nerves; fibers extend from pons to face
• Three divisions
– Ophthalmic (V1) passes through superior orbital fissure
– Maxillary (V2) passes through foramen rotundum
– Mandibular (V3) passes through the foramen ovale
• Convey sensory impulses from various areas of face (V1) and (V2)
• Supply motor fibers (V3) for mastication
VI: The Abducens Nerves
•
•
Fibers from inferior pons enter orbits via superior orbital fissures
Primarily a motor, innervating lateral rectus muscle
VII: The Facial Nerves
• Chief motor nerves of face with 5 major branches
• Motor functions include facial expression, parasympathetic impulses to
lacrimal and salivary glands
• Sensory function (taste) from anterior two-thirds of tongue
VIII: The Vestibulocochlear Nerves
•
Afferent fibers from hearing receptors (cochlear division) and equilibrium
receptors (vestibular division) pass from inner ear through internal acoustic
meatuses, and enter brain stem at pons-medulla border
•
Mostly sensory function
IX: The Glossopharyngeal Nerves
•
Motor functions - innervate part of tongue and pharynx for swallowing, and
provide parasympathetic fibers to parotid salivary glands
•
Sensory functions - fibers conduct taste and general sensory impulses from
pharynx and posterior one-third of tongue, and impulses from carotid
chemoreceptors and baroreceptors
X: The Vagus Nerves
• Only cranial nerves that extend beyond head and neck region
• Most motor fibers are parasympathetic fibers that help regulate activities of
heart, lungs, and abdominal viscera
• Sensory fibers carry impulses from thoracic and abdominal viscera,
baroreceptors, chemoreceptors, and pharynx
XI: The Accessory Nerves
•
•
•
Formed from ventral rootlets from C1–C5 region of spinal cord (not brain)
Rootlets pass into cranium via foramen magnum
Accessory nerves exit skull via jugular foramina to innervate trapezius and
sternocleidomastoid muscles
XII: The Hypoglossal Nerves
•
Innervate extrinsic and intrinsic muscles of tongue that contribute to
swallowing and speech
Composition of Cranial Nerves
• Some mixed nerves contain both somatic and autonomic fibers
– Most motor neuron cell bodies in ventral gray matter of brain stem
– Some autonomic motor neurons in ganglia
• To remember primary functions of cranial nerves as sensory, motor, both:
– "Some say marry money, but my brother says (it’s) bad business (to)
marry money."
Spinal Nerves
•
31 pairs of mixed nerves named for point of issue from spinal cord
– Supply all body parts but head and part of neck
– 8 cervical (C1–C8)
– 12 thoracic (T1–T12)
– 5 Lumbar (L1–L5)
– 5 Sacral (S1–S5)
– 1 Coccygeal (C0)
Spinal Nerves
•
Only 7 cervical vertebrae, yet 8 pairs cervical spinal nerves
– 7 exit vertebral canal superior to vertebrae for which named
– 1 exits canal inferior to C7
•
Other vertebrae exit inferior to vertebra for which named
Spinal Nerves: Roots
•
•
Each spinal nerve connects to spinal cord via two roots
Ventral roots
– Contain motor (efferent) fibers from ventral horn motor neurons
– Fibers innervate skeletal muscles
•
Dorsal roots
– Contain sensory (afferent) fibers from sensory neurons in dorsal root
ganglia and conduct impulses from peripheral receptors
•
Dorsal and ventral roots unite to form spinal nerves, which emerge from
vertebral column via intervertebral foramina
Spinal Nerves: Rami
•
•
Spinal nerves quite short (~1-2 cm)
Each branches into mixed rami
– Dorsal ramus
– Ventral ramus - larger
– Meningeal branch – tiny, reenters vertebral canal, innervates meninges
and blood vessels
– Rami communicantes (autonomic pathways) join ventral rami in thoracic
region
• All ventral rami except T2–T12 form interlacing nerve networks called nerve
plexuses (cervical, brachial, lumbar, and sacral)
• Back innervated by dorsal rami via several branches
• Ventral rami of T2–T12 as intercostal nerves supply muscles of ribs,
anterolateral thorax, and abdominal wall
• Spinal roots longer as move inferiorly in cord
–Lumbar and sacral roots extend as cauda equina
Spinal Nerves: Plexuses
•
Within plexus fibers criss-cross
– Each branch contains fibers from several spinal nerves
– Fibers from ventral ramus go to body periphery via several routes
•Each limb muscle innervated by more than one spinal nerve
– Damage to one does not  paralysis
Cervical Plexus and the Neck
•
•
Formed by ventral rami of C1–C4, part of C5, and CN XI and XII
Most branches form cutaneous nerves
– Innervate skin of neck, ear, back of head, and shoulders
– Other branches innervate neck muscles
•
Phrenic nerve
– Major motor and sensory nerve of diaphragm (receives fibers from C3–C5)
– Irritation  hiccups
Brachial Plexus and Upper Limb
•
•
•
Formed by ventral rami of C5–C8 and T1 (and often C4 and/or T2)
Gives rise to nerves that innervate upper limb
Major branches of this plexus:
– Roots—five ventral rami (C5–T1), which form
– Trunks—upper, middle, and lower, which form
– Divisions—anterior and posterior, which form
– Cords—lateral, medial, and posterior
Brachial Plexus: Five Important Nerves
•Axillary—innervates deltoid, teres minor, and skin and joint capsule of shoulder
•Musculocutaneous—innervates biceps brachii and brachialis, coracobrachialis,
and skin of lateral forearm
•Median—innervates skin, most flexors, forearm pronators, wrist and finger
flexors, thumb opposition muscles
•Ulnar—supplies flexor carpi ulnaris, part of flexor digitorum profundus, most
intrinsic hand muscles, skin of medial aspect of hand, wrist/finger flexion
•Radial—innervates essentially all extensor muscles, supinators, and posterior
skin of limb
Lumbar Plexus
•
Arises from L1–L4
•
•
Innervates thigh, abdominal wall, and psoas muscle
•
Obturator nerve—passes through obturator foramen to innervate adductor
muscles
Femoral nerve—innervates quadriceps and skin of anterior thigh and medial
surface of leg
Sacral Plexus
•
•
•
Arises from L4–S4
Serves the buttock, lower limb, pelvic structures, and perineum
Sciatic nerve
– Longest and thickest nerve of body
– Innervates hamstring muscles, adductor magnus, and most muscles in leg
and foot
– Composed of two nerves: tibial and common fibular
Innervation of Skin: Dermatomes
•
Dermatome - area of skin innervated by cutaneous branches of single spinal
nerve
•
•
•
All spinal nerves except C1 participate in dermatomes
Extent of spinal cord injuries ascertained by affected dermatomes
Most dermatomes overlap, so destruction of a single spinal nerve will not
cause complete numbness
Myotome: Innervation of skeletal Muscle, mapping of the ventral nerve roots
Innervation of Joints
•
To remember which nerves serve which synovial joint
– Hilton's law: Any nerve serving a muscle that produces movement at joint
also innervates joint and skin over joint
Reflex Arc
•
Components of a reflex arc (neural path)
1. Receptor—site of stimulus action
2. Sensory neuron—transmits afferent impulses to CNS
3. Integration center—either monosynaptic or polysynaptic region within
CNS
4. Motor neuron—conducts efferent impulses from integration center to
effector organ
5. Effector—muscle fiber or gland cell that responds to efferent impulses by
contracting or secreting
Reflexes
•
Functional classification
– Somatic reflexes
•Activate skeletal muscle
– Autonomic (visceral) reflexes
•Activate visceral effectors (smooth or cardiac muscle or glands)
Spinal Reflexes
•
Spinal somatic reflexes
– Integration center in spinal cord
– Effectors are skeletal muscle
•
Testing of somatic reflexes important clinically to assess condition of nervous
system
– If exaggerated, distorted, or absent  degeneration/pathology of specific
nervous system regions
Stretch and Tendon Reflexes
•
To smoothly coordinate skeletal muscle nervous system must receive
proprioceptor input regarding
– Length of muscle
•From muscle spindles
– Amount of tension in muscle
•From tendon organs
The Stretch Reflex
•
Maintains muscle tone in large postural muscles, and adjusts it reflexively
– Causes muscle contraction in response to increased muscle length
(stretch)
•
How stretch reflex works
– Stretch activates muscle spindle
– Sensory neurons synapse directly with  motor neurons in spinal cord
–  motor neurons cause stretched muscle to contract
•
•
All stretch reflexes are monosynaptic and ipsilateral
Reciprocal inhibition also occurs—IIa fibers synapse with interneurons that
inhibit  motor neurons of antagonistic muscles
– Example: In patellar reflex, stretched muscle (quadriceps) contracts and
antagonists (hamstrings) relax
•
Positive reflex reactions indicate
– Sensory and motor connections between muscle and spinal cord intact
– Strength of response indicates degree of spinal cord excitability
•
•
Hypoactive or absent if peripheral nerve damage or ventral horn injury
Hyperactive if lesions of corticospinal tract
Superficial Reflexes
•
•
•
Elicited by gentle cutaneous stimulation
Depend on upper motor pathways and cord-level reflex arcs
Best known:
– Plantar reflex
– Abdominal reflex
Superficial Reflexes: Plantar Reflex
•
•
•
•
Test integrity of cord from L4 – S2
Stimulus - stroke lateral aspect of sole of foot
Response - downward flexion of toes
Damage to motor cortex or corticospinal tracts  abnormal response =
Babinski's sign
– Hallux dorsiflexes; other digits fan laterally
– Normal in infant to ~1 year due to incomplete myelination
Superficial Reflexes: Abdominal Reflexes
•
•
Test integrity of cord from T8 – T12
•
•
Vary in intensity from one person to another
Cause contraction of abdominal muscles and movement of umbilicus in
response to stroking of skin
Absent when corticospinal tract lesions present